CN203657753U - Laser detection mechanism - Google Patents
Laser detection mechanism Download PDFInfo
- Publication number
- CN203657753U CN203657753U CN201320854220.1U CN201320854220U CN203657753U CN 203657753 U CN203657753 U CN 203657753U CN 201320854220 U CN201320854220 U CN 201320854220U CN 203657753 U CN203657753 U CN 203657753U
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- axis
- radium
- shine
- web joint
- linear module
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Abstract
The utility model relates to a laser detection mechanism. The laser detection mechanism comprises a base, an X-axis mechanism, an XY connecting plate, a Y-axis mechanism and a laser rotating mechanism; and the X-axis mechanism in installed on a bottom plate, the Y-axis mechanism is installed on the X-axis mechanism through the XY connecting plate, and the laser rotating mechanism is installed on the Y-axis mechanism. Positions of the laser rotating mechanism in the X-axis direction and the Y-axis direction are adjusted through the X-axis mechanism and the Y-axis mechanism, a rotary cylinder of the laser rotating mechanism drives a laser to rotate, the laser can rotate for a random angle, and a lifting connecting plate can be driven to go up and down through rotation of a lifting adjusting button in the vertical direction so that position adjustment of the laser in the vertical direction is realized. After the laser rotating mechanism is conveyed to a standard operation position, the laser scans products, data are obtained, and thus the next step of processing is performed.
Description
Technical field:
The utility model relates to a kind of radium-shine testing agency.
Background technology:
Sometimes part can be gapped after being installed to product, need to pad be installed at gap location just can make Product Assembly put in place, and the size in gap is difficult to pass through artificial judgment, now just need radium-shine testing agency, gather the data of product surface installed surface, and the surface data of part, calculate after product mounting parts, gap between part and product, then according to the pad of gap length selection respective thickness, very close to each other to guarantee.And radium-shine testing agency need to radium-shinely can regulate at three direction of principal axis, and the adjustable radium-shine anglec of rotation, transport it into standard operation position could operate, obtain data, thereby carry out next step processing.
Utility model content:
The purpose of this utility model is to provide a kind of radium-shine testing agency, by X-axis mechanism and the Y-axis mechanism position of adjustable radium-shine rotating mechanism in X-direction and Y direction, the rotary cylinder of radium-shine rotating mechanism drives radium-shine rotation, can rotate arbitrarily angled, in vertical direction, can be by the lifting that rotarily drives lifting web joint of lift adjustment button, thus realize radium-shine position adjustments in vertical direction.
Technology solution of the present utility model is as follows:
A kind of radium-shine testing agency, it comprises base, X-axis mechanism, XY web joint, Y-axis mechanism and radium-shine rotating mechanism, described X-axis mechanism is arranged on base plate; Described Y-axis mechanism is arranged in X-axis mechanism by XY web joint; Described radium-shine rotating mechanism is arranged in Y-axis mechanism.
Described radium-shine rotating mechanism comprises fixed head, slide rail, slide block, lifting web joint, lift adjustment knob, lift adjustment knob holder, rotary cylinder holder, rotary cylinder, shaft coupling, horizontal connecting plate and radium-shine, described fixed head one side is arranged in Y-axis mechanism, and slide rail is installed on opposite side; On described slide rail, coordinate slide block is installed, described lifting web joint and slide block are fixed together; Described fixed head top is being fixedly connected with lift adjustment knob holder, and described lift adjustment knob passes from lift adjustment knob holder, and its lower end and lifting web joint link together; Described rotary cylinder holder is fixed on lifting web joint rear portion, and rotary cylinder is connected on rotary cylinder holder; Described horizontal connecting plate is connected to the below of lifting web joint, and bearing seat is installed on horizontal connecting plate; On described rotary cylinder, connecting turning axle by shaft coupling, turning axle passes from bearing seat, and its lower end is connecting radium-shine.
As preferably, described X-axis mechanism comprises that X-axis motor, X-axis shaft coupling, the linear module of X-axis, X-axis mounting bar, X-axis photoelectric sensor, X-axis sensing chip and X-axis move extreme board, the linear module of described X-axis and X-axis mounting bar are arranged on base respectively, and the linear module of X-axis and X-axis mounting bar are parallel to each other; On described X-axis mounting bar, X-axis photoelectric sensor is installed; Described X-axis motor links together by X-axis shaft coupling and the linear module of X-axis; On the linear module of described X-axis, connecting XY web joint, and X-axis sensing chip is arranged on the sidepiece of XY web joint, X-axis sensing chip matches with X-axis photoelectric sensor; Described X-axis moves extreme board and is arranged on the front end of X-axis shaft coupling.
As preferably, described Y-axis mechanism comprises y-axis motor, Y-axis shaft coupling, the linear module of Y-axis, Y-axis mounting bar, Y-axis photoelectric sensor and Y-axis sensing chip, and the linear module of described Y-axis and Y-axis mounting bar are arranged on respectively on XY web joint; On described Y-axis mounting bar, Y-axis photoelectric sensor is installed; Described y-axis motor links together by Y-axis shaft coupling and the linear module of Y-axis; On the linear module of described Y-axis, connecting fixed head, and Y-axis sensing chip is arranged on the top of fixed head.
As preferably, described X-axis photoelectric sensor has two, is separately fixed on X-axis mounting bar.
As preferably, described Y-axis photoelectric sensor has two, is separately fixed on Y-axis mounting bar.
The beneficial effects of the utility model are:
The utility model is by radium-shine scanning product, obtain data, thereby carry out next step processing, regulate radium-shine position in X-direction and Y direction by X-axis mechanism and Y-axis mechanism, then the rotary cylinder in radium-shine rotating mechanism drives radium-shine rotation, can rotate arbitrarily angled, in vertical direction, can be by the lifting that rotarily drives lifting web joint of lift adjustment button, thereby realize radium-shine position adjustments in vertical direction, so the radium-shine standard operation position of adjusting to is scanned.It is easy to adjust, can accurately put in place.
Accompanying drawing explanation:
Below in conjunction with accompanying drawing, the utility model is described further:
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the front view of Fig. 1;
Fig. 3 is the vertical view of Fig. 1;
Fig. 4 is the right view of Fig. 1;
Fig. 5 is the structural representation of radium-shine rotating mechanism of the present utility model;
Fig. 6 is the left view of Fig. 5;
Fig. 7 is the right view of Fig. 5;
In Fig. 1~7: I-X-axis mechanism; II-Y-axis mechanism; III-radium-shine rotating mechanism; 1-base; 2-XY web joint; 3-X-axis motor; 4-X-axis shaft coupling; The linear module of 5-X-axis; 6-X-axis mounting bar; 7-X-axis photoelectric sensor; 8-X-axis sensing chip; 9-X-axis moves extreme board; 10-y-axis motor; 11-Y-axis shaft coupling; The linear module of 12-Y-axis; 13-Y-axis mounting bar; 14-Y-axis photoelectric sensor; 15-Y-axis sensing chip; 16-fixed head; 17-slide rail; 18-slide block; 19-lifting web joint; 20-lift adjustment knob; 21-lift adjustment knob holder; 22-rotary cylinder holder; 23-rotary cylinder; 24-shaft coupling; 25-horizontal connecting plate; 26-radium-shine; 27-bearing seat; 28-radium-shine fixed head.
Embodiment:
Embodiment, is shown in accompanying drawing 1~7, a kind of radium-shine testing agency, and it comprises base 1, X-axis mechanism I, XY web joint 2, Y-axis mechanism II and radium-shine rotating mechanism III, described X-axis mechanism is arranged on base plate; Described Y-axis mechanism is arranged in X-axis mechanism by XY web joint; Described radium-shine rotating mechanism is arranged in Y-axis mechanism.
Described X-axis mechanism comprises that X-axis motor 3, X-axis shaft coupling 4, the linear module 5 of X-axis, X-axis mounting bar 6, X-axis photoelectric sensor 7, X-axis sensing chip 8 and X-axis move extreme board 9, the linear module of described X-axis and X-axis mounting bar are arranged on base respectively, and the linear module of X-axis and X-axis mounting bar are parallel to each other; Two X-axis photoelectric sensors are installed on described X-axis mounting bar; Described X-axis motor links together by X-axis shaft coupling and the linear module of X-axis; On the linear module of described X-axis, connecting XY web joint, and X-axis sensing chip is arranged on the sidepiece of XY web joint, X-axis sensing chip matches with X-axis photoelectric sensor; Described X-axis moves extreme board and is arranged on the front end of X-axis shaft coupling.
Described Y-axis mechanism comprises y-axis motor 10, Y-axis shaft coupling 11, the linear module 12 of Y-axis, Y-axis mounting bar 13, Y-axis photoelectric sensor 14 and Y-axis sensing chip 15, and the linear module of described Y-axis and Y-axis mounting bar are arranged on respectively on XY web joint; Two Y-axis photoelectric sensors are installed on described Y-axis mounting bar; Described y-axis motor links together by Y-axis shaft coupling and the linear module of Y-axis; On the linear module of described Y-axis, connecting fixed head, and Y-axis sensing chip is arranged on the top of fixed head.
Described radium-shine rotating mechanism comprises fixed head 16, slide rail 17, slide block 18, lifting web joint 19, lift adjustment knob 20, lift adjustment knob holder 21, rotary cylinder holder 22, rotary cylinder 23, shaft coupling 24, horizontal connecting plate 25 and radium-shine 26, described fixed head one side is arranged in Y-axis mechanism, and slide rail is installed on opposite side; On described slide rail, coordinate slide block is installed, described lifting web joint and slide block are fixed together; Described fixed head top is being fixedly connected with lift adjustment knob holder, and described lift adjustment knob passes from lift adjustment knob holder, and its lower end and lifting web joint link together; Described rotary cylinder holder is fixed on lifting web joint rear portion, and rotary cylinder is connected on rotary cylinder holder; Described horizontal connecting plate is connected to the below of lifting web joint, and bearing seat 27 is installed on horizontal connecting plate; On described rotary cylinder, connecting turning axle by shaft coupling, turning axle passes from bearing seat, and its lower end is connecting radium-shine by radium-shine fixed head 28.
The utility model principle of work: described X-axis motor drives and can drive XY web joint to move along the linear module of X-axis, and displacement is determined by X-axis photoelectric sensor, and moved the extreme sport distance of extreme board control X-direction by X-axis.Described y-axis motor drives and can drive fixed head to move along the linear module of Y-axis, and displacement is determined by Y-axis photoelectric sensor.Thereby can realize the movement of radium-shine rotating mechanism in X-direction and Y direction; Described lift adjustment knob rotation, can drive lifting web joint to move up and down along slide rail, thereby can driven rotary cylinder move up and down together with also with radium-shine, rotary cylinder drives can drive radium-shine rotating freely, can gather the data of product surface installed surface, and the surface data of part, calculate after product mounting parts the gap between part and product.
Above-described embodiment is the specific descriptions that the utility model is carried out; just the utility model is further described; can not be interpreted as the restriction to the utility model protection domain, those skilled in the art according to the content of above-mentioned utility model make some nonessential improvement and adjust all fall into protection domain of the present utility model within.
Claims (5)
1. a radium-shine testing agency, is characterized in that: it comprises base, X-axis mechanism, XY web joint, Y-axis mechanism and radium-shine rotating mechanism, and described X-axis mechanism is arranged on base plate; Described Y-axis mechanism is arranged in X-axis mechanism by XY web joint; Described radium-shine rotating mechanism is arranged in Y-axis mechanism;
Described radium-shine rotating mechanism comprises fixed head, slide rail, slide block, lifting web joint, lift adjustment knob, lift adjustment knob holder, rotary cylinder holder, rotary cylinder, shaft coupling, horizontal connecting plate and radium-shine, described fixed head one side is arranged in Y-axis mechanism, and slide rail is installed on opposite side; On described slide rail, coordinate slide block is installed, described lifting web joint and slide block are fixed together; Described fixed head top is being fixedly connected with lift adjustment knob holder, and described lift adjustment knob passes from lift adjustment knob holder, and its lower end and lifting web joint link together; Described rotary cylinder holder is fixed on lifting web joint rear portion, and rotary cylinder is connected on rotary cylinder holder; Described horizontal connecting plate is connected to the below of lifting web joint, and bearing seat is installed on horizontal connecting plate; On described rotary cylinder, connecting turning axle by shaft coupling, turning axle passes from bearing seat, and its lower end is connecting radium-shine.
2. the radium-shine testing agency of one according to claim 1, it is characterized in that: described X-axis mechanism comprises that X-axis motor, X-axis shaft coupling, the linear module of X-axis, X-axis mounting bar, X-axis photoelectric sensor, X-axis sensing chip and X-axis move extreme board, the linear module of described X-axis and X-axis mounting bar are arranged on base respectively, and the linear module of X-axis and X-axis mounting bar are parallel to each other; On described X-axis mounting bar, X-axis photoelectric sensor is installed; Described X-axis motor links together by X-axis shaft coupling and the linear module of X-axis; On the linear module of described X-axis, connecting XY web joint, and X-axis sensing chip is arranged on the sidepiece of XY web joint, X-axis sensing chip matches with X-axis photoelectric sensor; Described X-axis moves extreme board and is arranged on the front end of X-axis shaft coupling.
3. the radium-shine testing agency of one according to claim 1, it is characterized in that: described Y-axis mechanism comprises y-axis motor, Y-axis shaft coupling, the linear module of Y-axis, Y-axis mounting bar, Y-axis photoelectric sensor and Y-axis sensing chip, and the linear module of described Y-axis and Y-axis mounting bar are arranged on respectively on XY web joint; On described Y-axis mounting bar, Y-axis photoelectric sensor is installed; Described y-axis motor links together by Y-axis shaft coupling and the linear module of Y-axis; On the linear module of described Y-axis, connecting fixed head, and Y-axis sensing chip is arranged on the top of fixed head.
4. the radium-shine testing agency of one according to claim 2, is characterized in that: described X-axis photoelectric sensor has two, is separately fixed on X-axis mounting bar.
5. the radium-shine testing agency of one according to claim 3, is characterized in that: described Y-axis photoelectric sensor has two, is separately fixed on Y-axis mounting bar.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320854220.1U CN203657753U (en) | 2013-12-23 | 2013-12-23 | Laser detection mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320854220.1U CN203657753U (en) | 2013-12-23 | 2013-12-23 | Laser detection mechanism |
Publications (1)
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CN203657753U true CN203657753U (en) | 2014-06-18 |
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Family Applications (1)
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CN201320854220.1U Withdrawn - After Issue CN203657753U (en) | 2013-12-23 | 2013-12-23 | Laser detection mechanism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103673909A (en) * | 2013-12-23 | 2014-03-26 | 苏州博众精工科技有限公司 | Laser detection mechanism |
-
2013
- 2013-12-23 CN CN201320854220.1U patent/CN203657753U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103673909A (en) * | 2013-12-23 | 2014-03-26 | 苏州博众精工科技有限公司 | Laser detection mechanism |
CN103673909B (en) * | 2013-12-23 | 2016-04-06 | 苏州博众精工科技有限公司 | A kind of laser detection mechanism |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140618 Effective date of abandoning: 20160406 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |